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In this activity, learners make a “creature” by mixing and matching different parts of toys. The activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in Mary Shelley’s novel Frankenstein.

"Nanoparticle Stained Glass" is a cart demonstration that introduces the connection between medieval stained glass artisans and nanotechnology. Visitors learn that the red and yellow colors in stained glass windows come from nanoparticles of gold and silver embedded in the...

These files contain the complete Frankenstein200 digital kit. This includes all planning and promotional materials; the hands-on activity guides, facilitator guides, and associated graphics and information sheets; facilitator orientation materials and training videos; and pre-made marketing materials, as well as...

In this activity, learners make a creature out of conductive dough and use it to create an electrical circuit. The activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in Mary Shelley’s novel Frankenstein.

In this activity, learners make a voltaic pile, the first kind of battery. The activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in Mary Shelley’s novel Frankenstein.

In this activity, learners make an automaton, a moving mechanical device that imitates the movement of a human, animal, or other living thing. The activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in...

Ideas for incorporating current science, engineering, and technology content into holidays, seasons, annual events, and special events: from STEM-themed events like National Chemistry Week and Astronomy Day to holidays like Halloween and Valentine's Day!

These videos cover each of the Frankenstein200 hands-on activities. They will walk facilitators through the steps for setting up and running each activity, as well as the activities' backgrounds and learning objectives. Activity booklets and facilitator guides can be found...

Welcome to the Frankenstein200 project! The downloadable welcome letter covers the basics of the Frankenstein200 project and kit, as well as the evaluation and reporting requirements for institutions that received a physical kit. The letter also includes a full list...

To address this challenge of depicting a world we can't see, the NISE Network Visualization Laboratory at the Exploratorium invited artists and scientists to explore ways of representing the nanoscale through a series of commissions, installations, and residencies in 2006....

Start with the comprehensive style guide! This guide demonstrates how you can use the downloadable fonts, logos, and palettes to create your own event and promotional materials. Fonts, logos, and palettes are available for both Frankenstein200 and Frankenstein200 L.I.F.E. Also...

"Exploring Materials - Thin Films" is a hands-on activity in which visitors create a colorful bookmark using a super thin layer of nail polish on water. They learn that a thin film creates iridescent, rainbow colors. "Explore Science - Zoom...

In this activity, learners will create a battery from two kinds of metal and their own body! This activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in Mary Shelley’s novel Frankenstein.

In this activity, learners make a toy bot with a surprising ability: it scribbles on a sheet of paper. The activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in Mary Shelley’s novel Frankenstein.

"Exploring Materials - Stained-Glass Windows" is a hands-on activity in which visitors use contact paper and colored tissue paper to create a "stained-glass" window. They learn that real stained-glass windows use nanoparticles to create some of the colors in the...

In this activity, learners make a mask with a special feature: an LED bulb that lights up. The activity is designed to prompt conversation and reflection about responsible innovation, inspired by themes raised in Mary Shelley’s novel Frankenstein.

"Nanostained Glass" is a classroom activity that has three parts: a presentation, a lab activity and an art activity. During the presentation, students are introduced to the connections between art and science, with a focus on the connection between stained...

This "L.I.F.E. Adventure Guide" will guide participants to each of your events three categories of activities (or "L.I.F.E. Divisions"): the Bioengineering Division, the Robotics Division, and the Responsible Innovation Division. For those familiar with other NISE projects, the Adventure Guide...

In this activity, students learn about structural color while exploring interference paints. Students compare interference acrylic paints to normal acrylic paints. Students also observe how the color of the paint changes when it’s applied to different paper, or viewed from...

"Exploring the Solar System: Hide and Seek Moon" is an engaging way for early childhood learners to experiment with some of the tools scientists use to study objects that are very, very far away, and to learn about how cultures...

NANO, LACMA was developed by a team of scientists and artists at UCLA. It was a temporary exhibition that closed in 2004, and provided a greater understanding of how art, science, culture and technology influence each other. Additional resources are...

Multi- award winning danceroom Spectroscopy (dS) is a new interactive visualisation of the nano-world. Fusing 3D imagery with real molecular dynamics, dS allows you to see your own energy field, and use it to interact with the otherwise invisible atomic...

The Ferrofluid Magnetoscope, by Michael Flynn, is an exhibit component that allows cooperatively-interactive control of a levitating liquid sculpture using a pair of magnet positioning handwheels. Visitors explore the properties of ferrofluid and learn about nanoscale science. It is available...

This activity from Science Alberta guides you through the process of making a complex buckyball shape out of origami paper. Their educational website, wonderville.ca, has additional activities, videos, games, and comics.

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